An agent-based model for analyzing land use dynamics in response to farmer behaviour and environmental change in the Pampanga delta (Philippines)

► CHANOS is an agent-based model in which decisional processes generate land-use mosaics. ► Three farmer behaviour patterns (rational, boundedly rational, collective) are tested. ► The cropping systems are also affected by environmental and economic forcing factors. ► Each behavioural profile condit...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2012-10, Vol.161, p.55-69
Main Authors: Mialhe, F., Becu, N., Gunnell, Y.
Format: Article
Language:English
Subjects:
adaptation
Agent-based modelling
agricultural policy
Agronomy. Soil science and plant productions
algorithms
Aquaculture
behavior change
Biological and medical sciences
Chanos
cropping systems
crops
decision making
Environmental studies
fabrics
Farmer behaviour
farmers
Fundamental and applied biological sciences. Psychology
General agroecology
General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping
General agronomy. Plant production
Generalities. Agricultural and farming systems. Agricultural development
habitats
Humanities and Social Sciences
Land-use change
markets
paddies
Paddy
Pampanga delta
politics
rice
subsidence
typhoons
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Summary:► CHANOS is an agent-based model in which decisional processes generate land-use mosaics. ► Three farmer behaviour patterns (rational, boundedly rational, collective) are tested. ► The cropping systems are also affected by environmental and economic forcing factors. ► Each behavioural profile conditions social, economic and land-use outcomes. ► The model reproduces 40 years of land use evolution in the Pampanga delta, Philippines. Agent-based models (ABMs) are increasingly employed to understand land use change in agro-ecosystems. Here we use an ABM named CHANOS to capture how a range of variables influences decision-making processes among farmers with respect to their choice of cropping system, and to analyze the resulting changes in land use patterns. The model is experimental but is empirically based and nourished by field data acquired in the Pampanga delta, Philippines, where rice cropping and aquaculture have been competing over the last 40 years at the expense of natural habitats. Among the variables we include agent behavioural profiles but also forcing factors relevant to the natural, economic and political settings of the system: e.g. continuous (deltaic land subsidence) and discrete (typhoon events) environmental processes, external market forces, and changes in government-driven agricultural policies. Assessing the relative weights of these factors was performed through a detailed analysis of decisional outcomes. The farmers fall into three behavioural categories: rational, collective minded and boundedly rational. Likewise, four different environmental dynamics are driven respectively by no deltaic subsidence, steady subsidence, accelerating subsidence, and subsidence punctuated by additional external variables such as listed above. Twelve scenarios were elaborated by combining the agent behaviour algorithms with the environmental dynamics. Results reveal three categories of land-use change: an extension of paddy over natural habitat, of aquaculture over natural habitat and paddy, and a succession of periods alternating between paddy and aquaculture. Several indicators show that the rational agents are the most reactive and adaptive to environmental changes. Collective-minded agents act independently from environmental changes. Their ability to cope with change is limited and adaptations take longer to propagate. Boundedly rational agents reveal adaptive capacities but are less reactive than rational agent. CHANOS thus provides a dynamic tool
ISSN:0167-8809
1873-2305
0167-8809
DOI:10.1016/j.agee.2012.07.016